/* $calcurse: io.c,v 1.33 2008/08/18 07:30:07 culot Exp $ */
/*
* Calcurse - text-based organizer
* Copyright (c) 2004-2008 Frederic Culot
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*
* Send your feedback or comments to : calcurse@culot.org
* Calcurse home page : http://culot.org/calcurse
*
*/
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <time.h>
#include <math.h>
#include <unistd.h>
#include <errno.h>
#include "i18n.h"
#include "utils.h"
#include "custom.h"
#include "todo.h"
#include "event.h"
#include "apoint.h"
#include "io.h"
#define ICALDATEFMT "%Y%m%d"
#define ICALDATETIMEFMT "%Y%m%dT%H%M%S"
typedef enum
{
PROGRESS_BAR_SAVE,
PROGRESS_BAR_LOAD,
PROGRESS_BAR_EXPORT
} progress_bar_t;
/* Type definition for callbacks to multiple-mode export functions. */
typedef void (*cb_export_t)(FILE *);
typedef void (*cb_dump_t)(FILE *, long, long, char *);
/* Static functions used to add export functionalities. */
static void ical_export_header (FILE *);
static void ical_export_recur_events (FILE *);
static void ical_export_events (FILE *);
static void ical_export_recur_apoints (FILE *);
static void ical_export_apoints (FILE *);
static void ical_export_todo (FILE *);
static void ical_export_footer (FILE *);
static void pcal_export_header (FILE *);
static void pcal_export_recur_events (FILE *);
static void pcal_export_events (FILE *);
static void pcal_export_recur_apoints (FILE *);
static void pcal_export_apoints (FILE *);
static void pcal_export_todo (FILE *);
static void pcal_export_footer (FILE *);
cb_export_t cb_export_header[IO_EXPORT_NBTYPES] =
{ical_export_header, pcal_export_header};
cb_export_t cb_export_recur_events[IO_EXPORT_NBTYPES] =
{ical_export_recur_events, pcal_export_recur_events};
cb_export_t cb_export_events[IO_EXPORT_NBTYPES] =
{ical_export_events, pcal_export_events};
cb_export_t cb_export_recur_apoints[IO_EXPORT_NBTYPES] =
{ical_export_recur_apoints, pcal_export_recur_apoints};
cb_export_t cb_export_apoints[IO_EXPORT_NBTYPES] =
{ical_export_apoints, pcal_export_apoints};
cb_export_t cb_export_todo[IO_EXPORT_NBTYPES] =
{ical_export_todo, pcal_export_todo};
cb_export_t cb_export_footer[IO_EXPORT_NBTYPES] =
{ical_export_footer, pcal_export_footer};
static char *ical_recur_type[RECUR_TYPES] =
{ "", "DAILY", "WEEKLY", "MONTHLY", "YEARLY" };
/* Draw a progress bar while saving, loading or exporting data. */
static void
progress_bar (progress_bar_t type, int progress)
{
#define SLEEPTIME 125000
#define STEPS 3
#define LABELENGTH 15
int i, step;
char *mesg_sav = _("Saving...");
char *mesg_load = _("Loading...");
char *mesg_export = _("Exporting...");
char *barchar = "|";
char file[STEPS][LABELENGTH] = {
"[ conf ]",
"[ todo ]",
"[ apts ]"
};
char data[STEPS][LABELENGTH] = {
"[ events ]",
"[appointments]",
"[ todo ]"
};
int ipos = LABELENGTH + 2;
int epos[STEPS];
/* progress bar length init. */
ipos = LABELENGTH + 2;
step = floor (col / (STEPS + 1));
for (i = 0; i < STEPS - 1; i++)
epos[i] = (i + 2) * step;
epos[STEPS - 1] = col - 2;
switch (type)
{
case PROGRESS_BAR_SAVE:
status_mesg (mesg_sav, file[progress]);
break;
case PROGRESS_BAR_LOAD:
status_mesg (mesg_load, file[progress]);
break;
case PROGRESS_BAR_EXPORT:
status_mesg (mesg_export, data[progress]);
break;
}
/* Draw the progress bar. */
mvwprintw (win[STA].p, 1, ipos, barchar);
mvwprintw (win[STA].p, 1, epos[STEPS - 1], barchar);
custom_apply_attr (win[STA].p, ATTR_HIGHEST);
for (i = ipos + 1; i < epos[progress]; i++)
mvwaddch (win[STA].p, 1, i, ' ' | A_REVERSE);
custom_remove_attr (win[STA].p, ATTR_HIGHEST);
wmove (win[STA].p, 0, 0);
wrefresh (win[STA].p);
usleep (SLEEPTIME);
}
/* Ask user for a file name to export data to. */
static FILE *
get_export_stream (export_type_t type)
{
FILE *stream;
int cancel;
char *home, *stream_name;
char *question = _("Choose the file used to export calcurse data:");
char *wrong_name =
_("The file cannot be accessed, please enter another file name.");
char *press_enter = _("Press [ENTER] to continue.");
const char *file_ext[IO_EXPORT_NBTYPES] = {"ical", "txt"};
stream = NULL;
stream_name = (char *) malloc (BUFSIZ);
if ((home = getenv ("HOME")) != NULL)
snprintf (stream_name, BUFSIZ, "%s/calcurse.%s", home, file_ext[type]);
else
snprintf (stream_name, BUFSIZ, "/tmp/calcurse.%s", file_ext[type]);
while (stream == NULL)
{
status_mesg (question, "");
cancel = updatestring (win[STA].p, &stream_name, 0, 1);
if (cancel)
{
free (stream_name);
return (NULL);
}
stream = fopen (stream_name, "w");
if (stream == NULL)
{
status_mesg (wrong_name, press_enter);
wgetch (win[STA].p);
}
}
free (stream_name);
return (stream);
}
/* Travel through each occurence of an item, and execute the given callback
* (mainly used to export data).
*/
static void
foreach_date_dump (const long date_end, struct rpt_s *rpt, struct days_s *exc,
long item_first_date, long item_dur, char *item_mesg,
cb_dump_t cb_dump, FILE *stream)
{
long date;
date = item_first_date;
while (date <= date_end && date <= rpt->until)
{
if (!recur_day_is_exc (date, exc))
{
(*cb_dump)(stream, date, item_dur, item_mesg);
}
switch (rpt->type)
{
case RECUR_DAILY:
date = date_sec_change (date, 0, rpt->freq);
break;
case RECUR_WEEKLY:
date = date_sec_change (date, 0, rpt->freq * WEEKINDAYS);
break;
case RECUR_MONTHLY:
date = date_sec_change (date, rpt->freq, 0);
break;
case RECUR_YEARLY:
date = date_sec_change (date, rpt->freq * 12, 0);
break;
default:
fputs (_("FATAL ERROR in foreach_date_dump: "
"incoherent repetition type\n"), stderr);
exit (EXIT_FAILURE);
/* NOTREACHED */
break;
}
}
}
/* iCal alarm notification. */
static void
ical_export_valarm (FILE *stream)
{
fprintf (stream, "BEGIN:VALARM\n");
pthread_mutex_lock (&nbar->mutex);
fprintf (stream, "TRIGGER:-P%dS\n", nbar->cntdwn);
pthread_mutex_unlock (&nbar->mutex);
fprintf (stream, "ACTION:DISPLAY\n");
fprintf (stream, "END:VALARM\n");
}
/* Export header. */
static void
ical_export_header (FILE *stream)
{
fprintf (stream, "BEGIN:VCALENDAR\n");
fprintf (stream, "PRODID:-//calcurse//NONSGML v%s//EN\n", VERSION);
fprintf (stream, "VERSION:2.0\n");
}
static void
pcal_export_header (FILE *stream)
{
fprintf (stream, "# calcurse pcal export\n");
fprintf (stream, "\n# =======\n# options\n# =======\n");
fprintf (stream, "opt -A -K -l -m -F %s\n",
calendar_week_begins_on_monday () ?
"Monday" : "Sunday");
fprintf (stream, "# Display week number (i.e. 1-52) on every Monday\n");
fprintf (stream, "all monday in all %s %%w\n", _("Week"));
fprintf (stream, "\n");
}
/* Export footer. */
static void
ical_export_footer (FILE *stream)
{
fprintf (stream, "END:VCALENDAR\n");
}
static void
pcal_export_footer (FILE *stream)
{
}
/* Export recurrent events. */
static void
ical_export_recur_events (FILE *stream)
{
struct recur_event_s *i;
struct days_s *day;
char ical_date[BUFSIZ];
for (i = recur_elist; i != 0; i = i->next)
{
date_sec2date_fmt (i->day, ICALDATEFMT, ical_date);
fprintf (stream, "BEGIN:VEVENT\n");
fprintf (stream, "DTSTART:%s\n", ical_date);
fprintf (stream, "RRULE:FREQ=%s;INTERVAL=%d",
ical_recur_type[i->rpt->type], i->rpt->freq);
if (i->rpt->until != 0)
{
date_sec2date_fmt (i->rpt->until, ICALDATEFMT, ical_date);
fprintf (stream, ";UNTIL=%s\n", ical_date);
}
else
fprintf (stream, "\n");
if (i->exc != NULL)
{
date_sec2date_fmt (i->exc->st, ICALDATEFMT, ical_date);
fprintf (stream, "EXDATE:%s", ical_date);
for (day = i->exc->next; day; day = day->next)
{
date_sec2date_fmt (day->st, ICALDATEFMT, ical_date);
fprintf (stream, ",%s", ical_date);
}
fprintf (stream, "\n");
}
fprintf (stream, "SUMMARY:%s\n", i->mesg);
fprintf (stream, "END:VEVENT\n");
}
}
/* Format and dump event data to a pcal formatted file. */
static void
pcal_dump_event (FILE *stream, long event_date, long event_dur,
char *event_mesg)
{
char pcal_date[BUFSIZ];
date_sec2date_fmt (event_date, "%b %d", pcal_date);
fprintf (stream, "%s %s\n", pcal_date, event_mesg);
}
/* Format and dump appointment data to a pcal formatted file. */
static void
pcal_dump_apoint (FILE *stream, long apoint_date, long apoint_dur,
char *apoint_mesg)
{
char pcal_date[BUFSIZ], pcal_beg[BUFSIZ], pcal_end[BUFSIZ];
date_sec2date_fmt (apoint_date, "%b %d", pcal_date);
date_sec2date_fmt (apoint_date, "%R", pcal_beg);
date_sec2date_fmt (apoint_date + apoint_dur, "%R", pcal_end);
fprintf (stream, "%s ", pcal_date);
fprintf (stream, "(%s -> %s) %s\n", pcal_beg, pcal_end, apoint_mesg);
}
static void
pcal_export_recur_events (FILE *stream)
{
struct recur_event_s *i;
char pcal_date[BUFSIZ];
fprintf (stream, "\n# =============");
fprintf (stream, "\n# Recur. Events");
fprintf (stream, "\n# =============\n");
fprintf (stream,
"# (pcal does not support from..until dates specification\n");
for (i = recur_elist; i != 0; i = i->next)
{
if (i->rpt->until == 0 && i->rpt->freq == 1)
{
switch (i->rpt->type)
{
case RECUR_DAILY:
date_sec2date_fmt (i->day, "%b %d", pcal_date);
fprintf (stream, "all day on_or_after %s %s\n",
pcal_date, i->mesg);
break;
case RECUR_WEEKLY:
date_sec2date_fmt (i->day, "%a", pcal_date);
fprintf (stream, "all %s on_or_after ", pcal_date);
date_sec2date_fmt (i->day, "%b %d", pcal_date);
fprintf (stream, "%s %s\n", pcal_date, i->mesg);
break;
case RECUR_MONTHLY:
date_sec2date_fmt (i->day, "%d", pcal_date);
fprintf (stream, "day on all %s %s\n", pcal_date, i->mesg);
break;
case RECUR_YEARLY:
date_sec2date_fmt (i->day, "%b %d", pcal_date);
fprintf (stream, "%s %s\n", pcal_date, i->mesg);
break;
default:
fputs (_("FATAL ERROR in pcal_export_recur_events: "
"incoherent repetition type\n"), stderr);
exit (EXIT_FAILURE);
break;
}
}
else
{
const long YEAR_START = calendar_start_of_year ();
const long YEAR_END = calendar_end_of_year ();
if (i->day < YEAR_END && i->day > YEAR_START)
foreach_date_dump (YEAR_END, i->rpt, i->exc, i->day, 0, i->mesg,
(cb_dump_t) pcal_dump_event, stream);
}
}
}
/* Export events. */
static void
ical_export_events (FILE *stream)
{
struct event_s *i;
char ical_date[BUFSIZ];
for (i = eventlist; i != 0; i = i->next)
{
date_sec2date_fmt (i->day, ICALDATEFMT, ical_date);
fprintf (stream, "BEGIN:VEVENT\n");
fprintf (stream, "DTSTART:%s\n", ical_date);
fprintf (stream, "SUMMARY:%s\n", i->mesg);
fprintf (stream, "END:VEVENT\n");
}
}
static void
pcal_export_events (FILE *stream)
{
struct event_s *i;
fprintf (stream, "\n# ======\n# Events\n# ======\n");
for (i = eventlist; i != 0; i = i->next)
pcal_dump_event (stream, i->day, 0, i->mesg);
fprintf (stream, "\n");
}
/* Export recurrent appointments. */
static void
ical_export_recur_apoints (FILE *stream)
{
recur_apoint_llist_node_t *i;
struct days_s *day;
char ical_datetime[BUFSIZ];
char ical_date[BUFSIZ];
pthread_mutex_lock (&(recur_alist_p->mutex));
for (i = recur_alist_p->root; i != 0; i = i->next)
{
date_sec2date_fmt (i->start, ICALDATETIMEFMT, ical_datetime);
fprintf (stream, "BEGIN:VEVENT\n");
fprintf (stream, "DTSTART:%s\n", ical_datetime);
fprintf (stream, "DURATION:P%ldS\n", i->dur);
fprintf (stream, "RRULE:FREQ=%s;INTERVAL=%d",
ical_recur_type[i->rpt->type], i->rpt->freq);
if (i->rpt->until != 0)
{
date_sec2date_fmt (i->rpt->until + HOURINSEC, ICALDATEFMT, ical_date);
fprintf (stream, ";UNTIL=%s\n", ical_date);
}
else
fprintf (stream, "\n");
if (i->exc != NULL)
{
date_sec2date_fmt (i->exc->st, ICALDATEFMT, ical_date);
fprintf (stream, "EXDATE:%s", ical_date);
for (day = i->exc->next; day; day = day->next)
{
date_sec2date_fmt (day->st, ICALDATEFMT, ical_date);
fprintf (stream, ",%s", ical_date);
}
fprintf (stream, "\n");
}
fprintf (stream, "SUMMARY:%s\n", i->mesg);
if (i->state & APOINT_NOTIFY)
ical_export_valarm (stream);
fprintf (stream, "END:VEVENT\n");
}
pthread_mutex_unlock (&(recur_alist_p->mutex));
}
static void
pcal_export_recur_apoints (FILE *stream)
{
recur_apoint_llist_node_t *i;
char pcal_date[BUFSIZ], pcal_beg[BUFSIZ], pcal_end[BUFSIZ];
fprintf (stream, "\n# ==============");
fprintf (stream, "\n# Recur. Apoints");
fprintf (stream, "\n# ==============\n");
fprintf (stream,
"# (pcal does not support from..until dates specification\n");
for (i = recur_alist_p->root; i != 0; i = i->next)
{
if (i->rpt->until == 0 && i->rpt->freq == 1)
{
date_sec2date_fmt (i->start, "%R", pcal_beg);
date_sec2date_fmt (i->start + i->dur, "%R", pcal_end);
switch (i->rpt->type)
{
case RECUR_DAILY:
date_sec2date_fmt (i->start, "%b %d", pcal_date);
fprintf (stream, "all day on_or_after %s (%s -> %s) %s\n",
pcal_date, pcal_beg, pcal_end, i->mesg);
break;
case RECUR_WEEKLY:
date_sec2date_fmt (i->start, "%a", pcal_date);
fprintf (stream, "all %s on_or_after ", pcal_date);
date_sec2date_fmt (i->start, "%b %d", pcal_date);
fprintf (stream, "%s (%s -> %s) %s\n", pcal_date,
pcal_beg, pcal_end, i->mesg);
break;
case RECUR_MONTHLY:
date_sec2date_fmt (i->start, "%d", pcal_date);
fprintf (stream, "day on all %s (%s -> %s) %s\n", pcal_date,
pcal_beg, pcal_end, i->mesg);
break;
case RECUR_YEARLY:
date_sec2date_fmt (i->start, "%b %d", pcal_date);
fprintf (stream, "%s (%s -> %s) %s\n", pcal_date,
pcal_beg, pcal_end, i->mesg);
break;
default:
fputs (_("FATAL ERROR in pcal_export_recur_apoints: "
"incoherent repetition type\n"), stderr);
exit (EXIT_FAILURE);
break;
}
}
else
{
const long YEAR_START = calendar_start_of_year ();
const long YEAR_END = calendar_end_of_year ();
if (i->start < YEAR_END && i->start > YEAR_START)
foreach_date_dump (YEAR_END, i->rpt, i->exc, i->start, i->dur,
i->mesg, (cb_dump_t)pcal_dump_apoint, stream);
}
}
}
/* Export appointments. */
static void
ical_export_apoints (FILE *stream)
{
apoint_llist_node_t *i;
char ical_datetime[BUFSIZ];
pthread_mutex_lock (&(alist_p->mutex));
for (i = alist_p->root; i != 0; i = i->next)
{
date_sec2date_fmt (i->start, ICALDATETIMEFMT, ical_datetime);
fprintf (stream, "BEGIN:VEVENT\n");
fprintf (stream, "DTSTART:%s\n", ical_datetime);
fprintf (stream, "DURATION:P%ldS\n", i->dur);
fprintf (stream, "SUMMARY:%s\n", i->mesg);
if (i->state & APOINT_NOTIFY)
ical_export_valarm (stream);
fprintf (stream, "END:VEVENT\n");
}
pthread_mutex_unlock (&(alist_p->mutex));
}
static void
pcal_export_apoints (FILE *stream)
{
fprintf (stream, "\n# ============\n# Appointments\n# ============\n");
apoint_llist_node_t *i;
pthread_mutex_lock (&(alist_p->mutex));
for (i = alist_p->root; i != 0; i = i->next)
pcal_dump_apoint (stream, i->start, i->dur, i->mesg);
pthread_mutex_unlock (&(alist_p->mutex));
fprintf (stream, "\n");
}
/* Export todo items. */
static void
ical_export_todo (FILE *stream)
{
struct todo_s *i;
for (i = todolist; i != 0; i = i->next)
{
fprintf (stream, "BEGIN:VTODO\n");
fprintf (stream, "PRIORITY:%d\n", i->id);
fprintf (stream, "SUMMARY:%s\n", i->mesg);
fprintf (stream, "END:VTODO\n");
}
}
static void
pcal_export_todo (FILE *stream)
{
struct todo_s *i;
fprintf (stream, "#\n# Todos\n#\n");
for (i = todolist; i != 0; i = i->next)
{
fprintf (stream, "note all ");
fprintf (stream, "%d. %s\n", i->id, i->mesg);
}
fprintf (stream, "\n");
}
/*
* Initialization of data paths. The cfile argument is the variable
* which contains the calendar file. If none is given, then the default
* one (~/.calcurse/apts) is taken. If the one given does not exist, it
* is created.
* The datadir argument can be use to specify an alternative data root dir.
*/
void
io_init (char *cfile, char *datadir)
{
FILE *data_file;
char *home;
char apts_file[BUFSIZ] = "";
int ch;
if (datadir != NULL)
{
home = datadir;
snprintf (path_dir, BUFSIZ, "%s", home);
snprintf (path_todo, BUFSIZ, "%s/" TODO_PATH_NAME, home);
snprintf (path_conf, BUFSIZ, "%s/" CONF_PATH_NAME, home);
snprintf (path_notes, BUFSIZ, "%s/" NOTES_DIR_NAME, home);
snprintf (path_apts, BUFSIZ, "%s/" APTS_PATH_NAME, home);
}
else
{
home = getenv ("HOME");
if (home == NULL)
{
home = ".";
}
snprintf (path_dir, BUFSIZ, "%s/" DIR_NAME, home);
snprintf (path_todo, BUFSIZ, "%s/" TODO_PATH, home);
snprintf (path_conf, BUFSIZ, "%s/" CONF_PATH, home);
snprintf (path_notes, BUFSIZ, "%s/" NOTES_DIR, home);
if (cfile == NULL)
{
snprintf (path_apts, BUFSIZ, "%s/" APTS_PATH, home);
}
else
{
snprintf (apts_file, BUFSIZ, "%s", cfile);
strncpy (path_apts, apts_file, BUFSIZ);
/* check if the file exists, otherwise create it */
data_file = fopen (path_apts, "r");
if (data_file == NULL)
{
printf (_("%s does not exist, create it now [y or n] ? "),
path_apts);
ch = getchar ();
switch (ch)
{
case 'N':
case 'n':
printf (_("aborting...\n"));
exit (EXIT_FAILURE);
break;
case 'Y':
case 'y':
data_file = fopen (path_apts, "w");
if (data_file == NULL)
{
perror (path_apts);
exit (EXIT_FAILURE);
}
else
{
printf (_("%s successfully created\n"), path_apts);
printf (_("starting interactive mode...\n"));
}
break;
default:
printf (_("aborting...\n"));
exit (EXIT_FAILURE);
break;
}
}
fclose (data_file);
}
}
}
/* get data from file */
void
io_extract_data (char *dst_data, const char *org, int len)
{
for (;;)
{
if (*org == '\n' || *org == '\0')
break;
*dst_data++ = *org++;
}
*dst_data = '\0';
}
/* Save the calendar data */
void
io_save_cal (conf_t *conf)
{
FILE *data_file;
struct event_s *k;
apoint_llist_node_t *j;
struct todo_s *i;
char theme_name[BUFSIZ];
char *access_pb = _("Problems accessing data file ...");
char *config_txt =
"#\n"
"# Calcurse configuration file\n#\n"
"# This file sets the configuration options used by Calcurse. These\n"
"# options are usually set from within Calcurse. A line beginning with \n"
"# a space or tab is considered to be a continuation of the previous "
"line.\n"
"# For a variable to be unset its value must be blank.\n"
"# To set a variable to the empty string its value should be \"\".\n"
"# Lines beginning with \"#\" are comments, and ignored by Calcurse.\n";
char *save_success = _("The data files were successfully saved");
char *enter = _("Press [ENTER] to continue");
bool show_bar = false;
if (!conf->skip_progress_bar)
show_bar = true;
/* Save the user configuration. */
if (show_bar)
progress_bar (PROGRESS_BAR_SAVE, 0);
data_file = fopen (path_conf, "w");
if (data_file == (FILE *) 0)
status_mesg (access_pb, "");
else
{
custom_color_theme_name (theme_name);
fprintf (data_file, "%s\n", config_txt);
fprintf (data_file,
"# If this option is set to yes, "
"automatic save is done when quitting\n");
fprintf (data_file, "auto_save=\n");
fprintf (data_file, "%s\n", (conf->auto_save) ? "yes" : "no");
fprintf (data_file,
"\n# If this option is set to yes, "
"confirmation is required before quitting\n");
fprintf (data_file, "confirm_quit=\n");
fprintf (data_file, "%s\n", (conf->confirm_quit) ? "yes" : "no");
fprintf (data_file,
"\n# If this option is set to yes, "
"confirmation is required before deleting an event\n");
fprintf (data_file, "confirm_delete=\n");
fprintf (data_file, "%s\n", (conf->confirm_delete) ? "yes" : "no");
fprintf (data_file,
"\n# If this option is set to yes, "
"messages about loaded and saved data will not be displayed\n");
fprintf (data_file, "skip_system_dialogs=\n");
fprintf (data_file, "%s\n", (conf->skip_system_dialogs) ? "yes" : "no");
fprintf (data_file,
"\n# If this option is set to yes, progress bar appearing "
"when saving data will not be displayed\n");
fprintf (data_file, "skip_progress_bar=\n");
fprintf (data_file, "%s\n", (conf->skip_progress_bar) ? "yes" : "no");
fprintf (data_file,
"\n# If this option is set to yes, "
"monday is the first day of the week, else it is sunday\n");
fprintf (data_file, "week_begins_on_monday=\n");
fprintf (data_file, "%s\n",
(calendar_week_begins_on_monday ())? "yes" : "no");
fprintf (data_file, "\n# This is the color theme used for menus :\n");
fprintf (data_file, "color-theme=\n");
fprintf (data_file, "%s\n", theme_name);
fprintf (data_file, "\n# This is the layout of the calendar :\n");
fprintf (data_file, "layout=\n");
fprintf (data_file, "%d\n", wins_layout ());
pthread_mutex_lock (&nbar->mutex);
fprintf (data_file,
"\n# If this option is set to yes, "
"notify-bar will be displayed :\n");
fprintf (data_file, "notify-bar_show=\n");
fprintf (data_file, "%s\n", (nbar->show) ? "yes" : "no");
fprintf (data_file,
"\n# Format of the date to be displayed inside notify-bar :\n");
fprintf (data_file, "notify-bar_date=\n");
fprintf (data_file, "%s\n", nbar->datefmt);
fprintf (data_file,
"\n# Format of the time to be displayed inside notify-bar :\n");
fprintf (data_file, "notify-bar_clock=\n");
fprintf (data_file, "%s\n", nbar->timefmt);
fprintf (data_file,
"\n# Warn user if he has an appointment within next "
"'notify-bar_warning' seconds :\n");
fprintf (data_file, "notify-bar_warning=\n");
fprintf (data_file, "%d\n", nbar->cntdwn);
fprintf (data_file,
"\n# Command used to notify user of "
"an upcoming appointment :\n");
fprintf (data_file, "notify-bar_command=\n");
fprintf (data_file, "%s\n", nbar->cmd);
fprintf (data_file,
"\n# Format of the date to be displayed "
"in non-interactive mode :\n");
fprintf (data_file, "output_datefmt=\n");
fprintf (data_file, "%s\n", conf->output_datefmt);
fprintf (data_file,
"\n# Format to be used when entering a date "
"(1-mm/dd/yyyy, 2-dd/mm/yyyy, 3-yyyy/mm/dd) :\n");
fprintf (data_file, "input_datefmt=\n");
fprintf (data_file, "%d\n", conf->input_datefmt);
pthread_mutex_unlock (&nbar->mutex);
fclose (data_file);
}
/* Save the todo data file. */
if (show_bar)
progress_bar (PROGRESS_BAR_SAVE, 1);
data_file = fopen (path_todo, "w");
if (data_file == (FILE *) 0)
status_mesg (access_pb, "");
else
{
for (i = todolist; i != 0; i = i->next)
{
if (i->note != NULL)
fprintf (data_file, "[%d]>%s %s\n", i->id, i->note, i->mesg);
else
fprintf (data_file, "[%d] %s\n", i->id, i->mesg);
}
fclose (data_file);
}
/*
* Save the apts data file, which contains the
* appointments first, and then the events.
* Recursive items are written first.
*/
if (show_bar)
progress_bar (PROGRESS_BAR_SAVE, 2);
data_file = fopen (path_apts, "w");
if (data_file == (FILE *) 0)
status_mesg (access_pb, "");
else
{
recur_save_data (data_file);
pthread_mutex_lock (&(alist_p->mutex));
for (j = alist_p->root; j != 0; j = j->next)
apoint_write (j, data_file);
pthread_mutex_unlock (&(alist_p->mutex));
for (k = eventlist; k != 0; k = k->next)
event_write (k, data_file);
fclose (data_file);
}
/* Print a message telling data were saved */
if (!conf->skip_system_dialogs)
{
status_mesg (save_success, enter);
wgetch (win[STA].p);
}
}
/*
* Check what type of data is written in the appointment file,
* and then load either: a new appointment, a new event, or a new
* recursive item (which can also be either an event or an appointment).
*/
void
io_load_app (void)
{
FILE *data_file;
int c, is_appointment, is_event, is_recursive;
struct tm start, end, until, *lt;
struct days_s *exc = NULL;
time_t t;
int id = 0;
int freq;
char type, state = 0L;
char note[NOTESIZ + 1], *notep;
char *error =
_("FATAL ERROR in io_load_app: wrong format in the appointment or event\n");
t = time (NULL);
lt = localtime (&t);
start = end = until = *lt;
data_file = fopen (path_apts, "r");
for (;;)
{
is_appointment = is_event = is_recursive = 0;
c = getc (data_file);
if (c == EOF)
break;
ungetc (c, data_file);
/* Read the date first: it is common to both events
* and appointments.
*/
if (fscanf (data_file, "%u / %u / %u ",
&start.tm_mon, &start.tm_mday, &start.tm_year) != 3)
{
fputs (_("FATAL ERROR in io_load_app: "
"syntax error in the item date\n"), stderr);
exit (EXIT_FAILURE);
}
/* Read the next character : if it is an '@' then we have
* an appointment, else if it is an '[' we have en event.
*/
c = getc (data_file);
if (c == '@')
is_appointment = 1;
else if (c == '[')
is_event = 1;
else
{
fputs (_("FATAL ERROR in io_load_app: "
"no event nor appointment found\n"), stderr);
exit (EXIT_FAILURE);
}
ungetc (c, data_file);
/* Read the remaining informations. */
if (is_appointment)
{
fscanf (data_file, "@ %u : %u -> %u / %u / %u @ %u : %u ",
&start.tm_hour, &start.tm_min,
&end.tm_mon, &end.tm_mday, &end.tm_year,
&end.tm_hour, &end.tm_min);
}
else if (is_event)
{
fscanf (data_file, "[%d] ", &id);
}
else
{ /* NOT REACHED */
fputs (error, stderr);
exit (EXIT_FAILURE);
}
/* Check if we have a recursive item. */
c = getc (data_file);
if (c == '{')
{
ungetc (c, data_file);
is_recursive = 1;
fscanf (data_file, "{ %d%c ", &freq, &type);
c = getc (data_file);
if (c == '}')
{ /* endless recurrent item */
ungetc (c, data_file);
fscanf (data_file, "} ");
until.tm_year = 0;
}
else if (c == '-')
{
ungetc (c, data_file);
fscanf (data_file, " -> %u / %u / %u ",
&until.tm_mon, &until.tm_mday, &until.tm_year);
c = getc (data_file);
if (c == '!')
{
ungetc (c, data_file);
exc = recur_exc_scan (data_file);
c = getc (data_file);
}
else
{
ungetc (c, data_file);
fscanf (data_file, "} ");
}
}
else if (c == '!')
{ // endless item with exceptions
ungetc (c, data_file);
exc = recur_exc_scan (data_file);
c = getc (data_file);
until.tm_year = 0;
}
else
{ /* NOT REACHED */
fputs (error, stderr);
exit (EXIT_FAILURE);
}
}
else
ungetc (c, data_file);
/* Check if a note is attached to the item. */
c = getc (data_file);
if (c == '>')
{
fgets (note, NOTESIZ + 1, data_file);
note[NOTESIZ] = '\0';
notep = note;
getc (data_file);
}
else
{
notep = NULL;
ungetc (c, data_file);
}
/*
* Last: read the item description and load it into its
* corresponding linked list, depending on the item type.
*/
if (is_appointment)
{
c = getc (data_file);
if (c == '!')
{
ungetc (c, data_file);
fscanf (data_file, " ! ");
state |= APOINT_NOTIFY;
}
else
{
ungetc (c, data_file);
fscanf (data_file, " | ");
state = 0L;
}
if (is_recursive)
{
recur_apoint_scan (data_file, start, end,
type, freq, until, notep, exc, state);
}
else
{
apoint_scan (data_file, start, end, state, notep);
}
}
else if (is_event)
{
if (is_recursive)
{
recur_event_scan (data_file, start, id, type,
freq, until, notep, exc);
}
else
{
event_scan (data_file, start, id, notep);
}
}
else
{ /* NOT REACHED */
fputs (error, stderr);
exit (EXIT_FAILURE);
}
}
fclose (data_file);
}
/* Load the todo data */
void
io_load_todo (void)
{
FILE *data_file;
char *mesg_line1 = _("Failed to open todo file");
char *mesg_line2 = _("Press [ENTER] to continue");
char *nl;
int nb_tod = 0;
int c, id;
char buf[BUFSIZ], e_todo[BUFSIZ], note[NOTESIZ + 1];
data_file = fopen (path_todo, "r");
if (data_file == NULL)
{
status_mesg (mesg_line1, mesg_line2);
wgetch (win[STA].p);
}
for (;;)
{
c = getc (data_file);
if (c == EOF)
{
break;
}
else if (c == '[')
{ /* new style with id */
fscanf (data_file, "%d]", &id);
}
else
{
id = 9;
ungetc (c, data_file);
}
/* Now read the attached note, if any. */
c = getc (data_file);
if (c == '>')
{
fgets (note, NOTESIZ + 1, data_file);
note[NOTESIZ] = '\0';
getc (data_file);
}
else
note[0] = '\0';
/* Then read todo description. */
fgets (buf, BUFSIZ, data_file);
nl = strchr (buf, '\n');
if (nl)
{
*nl = '\0';
}
io_extract_data (e_todo, buf, strlen (buf));
todo_add (e_todo, id, note);
++nb_tod;
}
fclose (data_file);
todo_set_nb (nb_tod);
}
static void
check_directory (char *dir, int *missing)
{
errno = 0;
if (mkdir (dir, 0700) != 0)
{
if (errno != EEXIST)
{
fprintf (stderr, _("FATAL ERROR: could not create %s: %s\n"),
dir, strerror (errno));
exit (EXIT_FAILURE);
}
}
else
(*missing)++;
}
static void
check_file (char *file, int *missing)
{
FILE *fd;
errno = 0;
if ((fd = fopen (file, "r")) == NULL)
{
(*missing)++;
if ((fd = fopen (file, "w")) == NULL)
{
fprintf (stderr, _("FATAL ERROR: could not create %s: %s\n"),
file, strerror (errno));
exit (EXIT_FAILURE);
}
}
fclose (fd);
}
/*
* Checks if data files exist. If not, create them.
* The following structure has to be created:
*
* $HOME/.calcurse/
* |
* +--- notes/
* |___ conf
* |___ apts
* |___ todo
*/
int
io_check_data_files (void)
{
int missing;
missing = 0;
errno = 0;
check_directory (path_dir, &missing);
check_directory (path_notes, &missing);
check_file (path_todo, &missing);
check_file (path_apts, &missing);
check_file (path_conf, &missing);
return (missing);
}
/* Draw the startup screen */
void
io_startup_screen (bool skip_dialogs, int no_data_file)
{
char *welcome_mesg =
_("Welcome to Calcurse. Missing data files were created.");
char *data_mesg = _("Data files found. Data will be loaded now.");
char *enter = _("Press [ENTER] to continue");
if (no_data_file != 0)
{
status_mesg (welcome_mesg, enter);
wgetch (win[STA].p);
}
else if (!skip_dialogs)
{
status_mesg (data_mesg, enter);
wgetch (win[STA].p);
}
}
/* Export calcurse data. */
void
io_export_data (export_mode_t mode, export_type_t type, conf_t *conf)
{
FILE *stream;
char *wrong_mode = _("FATAL ERROR in io_export_data: wrong export mode\n");
char *wrong_type = _("FATAL ERROR in io_export_data: unknown export type\n");
char *success = _("The data were successfully exported");
char *enter = _("Press [ENTER] to continue");
if (type < IO_EXPORT_ICAL || type >= IO_EXPORT_NBTYPES)
{
fputs (wrong_type, stderr);
exit (EXIT_FAILURE);
}
switch (mode)
{
case IO_EXPORT_NONINTERACTIVE:
stream = stdout;
break;
case IO_EXPORT_INTERACTIVE:
stream = get_export_stream (type);
break;
default:
fputs (wrong_mode, stderr);
exit (EXIT_FAILURE);
/* NOTREACHED */
}
if (stream == NULL)
return;
cb_export_header[type] (stream);
if (!conf->skip_progress_bar && mode == IO_EXPORT_INTERACTIVE)
progress_bar (PROGRESS_BAR_EXPORT, 0);
cb_export_recur_events[type] (stream);
cb_export_events[type] (stream);
if (!conf->skip_progress_bar && mode == IO_EXPORT_INTERACTIVE)
progress_bar (PROGRESS_BAR_EXPORT, 1);
cb_export_recur_apoints[type] (stream);
cb_export_apoints[type] (stream);
if (!conf->skip_progress_bar && mode == IO_EXPORT_INTERACTIVE)
progress_bar (PROGRESS_BAR_EXPORT, 2);
cb_export_todo[type] (stream);
cb_export_footer[type] (stream);
if (stream != stdout)
fclose (stream);
if (!conf->skip_system_dialogs && mode == IO_EXPORT_INTERACTIVE)
{
status_mesg (success, enter);
wgetch (win[STA].p);
}
}
/* Draws the export format selection bar */
void
io_export_bar (void)
{
int smlspc, spc;
smlspc = 2;
spc = 15;
custom_apply_attr (win[STA].p, ATTR_HIGHEST);
mvwprintw (win[STA].p, 0, 2, "Q");
mvwprintw (win[STA].p, 1, 2, "I");
mvwprintw (win[STA].p, 0, 2 + spc, "P");
custom_remove_attr (win[STA].p, ATTR_HIGHEST);
mvwprintw (win[STA].p, 0, 2 + smlspc, _("Exit"));
mvwprintw (win[STA].p, 1, 2 + smlspc, _("Ical"));
mvwprintw (win[STA].p, 0, 2 + spc + smlspc, _("Pcal"));
wnoutrefresh (win[STA].p);
wmove (win[STA].p, 0, 0);
doupdate ();
}